Order−Order Phase Transition between Spherical and Cylindrical Microdomain Structures of Block Copolymer. I. Mechanism of the Transition
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Abstract
The mechanism of the order−order transition in a block copolymer between spheres in a body-centered cubic lattice (bcc-spheres) and hexagonal cylinders was investigated by means of small-angle X-ray scattering (SAXS). The block copolymer studied is a polystyrene-block-polyisoprene diblock copolymer having a molecular weight of 4.40 × 104 and a weight fraction of polystyrene of 0.20. Cylindrical microdomains on a hexagonal lattice were observed up to 114.7 °C and changed to bcc-spheres above 116.7 °C. The OOT transition between the two microdomains reversibly occurred. Moreover, the repetitive OOT process (defined in the text) occurred with conservation of the grain structures and of orientation of the crystallographic axes in the grains. When the SAXS pattern from a single grain was examined, it was found that the cylinders are transformed into a series of spheres with the cylindrical axes corresponding to the [111] direction of the bcc-spheres upon heating and that the spheres along the [111] direction of the bcc lattice are deformed and interconnected to cylinders upon cooling, both without changing the grain structures.
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